Computational modeling of Metal-Organic Frameworks | | Posted on:2013-02-02 | Degree:M.S | Type:Thesis | | University:University of California, San Diego | Candidate:Sung, Jeffrey Chuen-Fai | Full Text:PDF | | GTID:2451390008471188 | Subject:Chemistry | | Abstract/Summary: | | | In this work, the metal-organic frameworks MIL-53(Cr), DMOF-2,3-NH 2Cl, DMOF-2,5-NH2Cl, and HKUST-1 were modeled using molecular mechanics and electronic structure. The effect of electronic polarization on the adsorption of water in MIL-53(Cr) was studied using molecular dynamics simulations of water-loaded MIL-53 systems with both polarizable and non-polarizable force fields. Molecular dynamics simulations of the full systems and DFT calculations on representative framework clusters were utilized to study the difference in nitrogen adsorption between DMOF-2,3-NH2Cl and DMOF-2,5-NH 2Cl. Finally, the control of proton conduction in HKUST-1 by complexation of molecules to the Cu open metal site was investigated using the MS-EVB methodology. | | Keywords/Search Tags: | MIL-53, Using, Dmof-2 | | Related items |
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